Showing total 38,819 results

51. Flood Disaster Mitigation System Adopting Meteorological Data and Geographic Information Systems

Author

Kanai, Haruki, Yamamoto, Kayoko, Rannenberg, Kai, Editor-in-Chief, Soares Barbosa, Luís, Editorial Board Member, Goedicke, Michael, Editorial Board Member, Tatnall, Arthur, Editorial Board Member, Neuhold, Erich J., Editorial Board Member, Stiller, Burkhard, Editorial Board Member, Tröltzsch, Fredi, Editorial Board Member, Pries-Heje, Jan, Editorial Board Member, Kreps, David, Editorial Board Member, Reis, Ricardo, Editorial Board Member, Furnell, Steven, Editorial Board Member, Mercier-Laurent, Eunika, Editorial Board Member, Winckler, Marco, Editorial Board Member, Malaka, Rainer, Editorial Board Member, Sasaki, Jun, editor, Murayama, Yuko, editor, Velev, Dimiter, editor, and Zlateva, Plamena, editor

Published

2022

52. Enhancing Higher Education Buildings’ Performance Through Energy Audit and Retrofitting: Climate Action to Mitigate CO2 Emissions and Attain SDGs

Author

Aboulnaga, Mohsen, Amer, Abdulrahman, Ahmed, Radwa, and Sayigh, Ali, Series Editor

Published

2022

53. Climate Change Adaptation Amid COVID-19: Sustainable Transport Guidelines to Mitigate CO2 Emissions, Enhance Livability in Cities, and Attain SDG 7, 11, 12, and 13

Author

Barakat, Mai M., Aboulnaga, Mohsen M., and Sayigh, Ali, Series Editor

Published

2022

54. Mechanical Biological Treatment Facility: Energy Recovery Assessment

Author

Muazu, Sani, Mirzaii, Hossein, Andy Augousti, T., Benhadj-Djilali, Redha, and Sayigh, Ali, Series Editor

Published

2022

55. Sustainable Buildings for Sustainable Community in the Emirate of Ajman – UAE

Author

Kaied, Yaser Omar Rajab, Darwish, Abdul Salam, Farrell, Peter, and Sayigh, Ali, Series Editor

Published

2022

56. Developing Sustainable Cities for Climate Change Mitigation

Author

Serghides, Despina, Dimitriou, Stella, Kyprianou, Ioanna, Giannakis, Elias, Zittis, George, and Sayigh, Ali, Series Editor

Published

2022

57. Pearl millet a promising fodder crop for changing climate: a review.

Author

Daduwal HS, Bhardwaj R, and Srivastava RK

Subjects

Quantitative Trait Loci, Animals, Pennisetum genetics, Climate Change, Crops, Agricultural genetics, Crops, Agricultural growth & development, Animal Feed, Plant Breeding

Abstract

The agricultural sector faces colossal challenges amid environmental changes and a burgeoning human population. In this context, crops must adapt to evolving climatic conditions while meeting increasing production demands. The dairy industry is anticipated to hold the highest value in the agriculture sector in future. The rise in the livestock population is expected to result in an increased demand for fodder feed. Consequently, it is crucial to seek alternative options, as crops demand fewer resources and are resilient to climate change. Pearl millet offers an apposite key to these bottlenecks, as it is a promising climate resilience crop with significantly low energy, water and carbon footprints compared to other crops. Numerous studies have explored its potential as a fodder crop, revealing promising performance. Despite its capabilities, pearl millet has often been overlooked. To date, few efforts have been made to document molecular aspects of fodder-related traits. However, several QTLs and candidate genes related to forage quality have been identified in other fodder crops, which can be harnessed to enhance the forage quality of pearl millet. Lately, excellent genomic resources have been developed in pearl millet allowing deployment of cutting-edge genomics-assisted breeding for achieving a higher rate of genetic gains. This review would facilitate a deeper understanding of various aspects of fodder pearl millet in retrospect along with the future challenges and their solution. This knowledge may pave the way for designing efficient breeding strategies in pearl millet thereby supporting sustainable agriculture and livestock production in a changing world., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

58. Heterotrophy in marine animal forests in an era of climate change.

Author

Denis V, Ferrier-Pagès C, Schubert N, Coppari M, Baker DM, Camp EF, Gori A, Grottoli AG, Houlbrèque F, Maier SR, Mancinelli G, Martinez S, Yalçın Özdilek Ş, Radice VZ, Ribes M, Richter C, Viladrich N, and Rossi S

Subjects

Animals, Heterotrophic Processes, Ecosystem, Climate Change, Aquatic Organisms physiology

Abstract

Marine animal forests (MAFs) are benthic ecosystems characterised by biogenic three-dimensional structures formed by suspension feeders such as corals, gorgonians, sponges and bivalves. They comprise highly diversified communities among the most productive in the world's oceans. However, MAFs are in decline due to global and local stressors that threaten the survival and growth of their foundational species and associated biodiversity. Innovative and scalable interventions are needed to address the degradation of MAFs and increase their resilience under global change. Surprisingly, few studies have considered trophic interactions and heterotrophic feeding of MAF suspension feeders as an integral component of MAF conservation. Yet, trophic interactions are important for nutrient cycling, energy flow within the food web, biodiversity, carbon sequestration, and MAF stability. This comprehensive review describes trophic interactions at all levels of ecological organisation in tropical, temperate, and cold-water MAFs. It examines the strengths and weaknesses of available tools for estimating the heterotrophic capacities of the foundational species in MAFs. It then discusses the threats that climate change poses to heterotrophic processes. Finally, it presents strategies for improving trophic interactions and heterotrophy, which can help to maintain the health and resilience of MAFs., (© 2024 Cambridge Philosophical Society.)

Published

2024

59. Tree contributions to climate change adaptation through reduced cattle heat stress and benefits to milk and beef production.

Author

Richards D, Dewhurst Z, Giltrap D, and Lavorel S

Subjects

Animals, Cattle physiology, New Zealand, Heat-Shock Response, Models, Theoretical, Climate Change, Milk, Trees

Abstract

Cattle heat stress causes billions of dollars' worth of losses to meat and milk production globally, and is projected to become more severe in the future due to climate change. Tree establishment in pastoral livestock systems holds potential to reduce cattle heat stress and thus provide nature-based adaptation. We developed a general model for the impact of trees on cattle heat stress, which can project milk and meat production under future climate scenarios at varying spatial scales. The model incorporates the key microclimate mechanisms influenced by trees, including shade, air temperature, humidity, and wind speed. We conducted sensitivity analyses to demonstrate the relative influence of different mechanisms through which trees can impact cattle heat stress, and how tree impacts are influenced by climatic context globally. Trees hold the greatest potential to reduce cattle heat stress in higher latitudes and altitudes, with minor benefits in the lowland tropics. We projected the future contributions of current trees in mitigating climate change impacts on the dairy and beef herds of Aotearoa-New Zealand (A-NZ) in 2070-2080. Trees were simulated to contribute to A-NZ milk yields by over 491 million liters (lower CI = 112 million liters, upper CI = 850 million liters), and meat yields by over 8316 tonnes (lower CI = 2431 tonnes, upper CI = 13,668 tonnes) annually. The total economic contribution of existing trees in mitigating future cattle heat stress was valued at $US 244 million (lower CI = $US 58 million, upper CI = $US 419 million). Our findings demonstrate the importance of existing trees in pastoral landscapes and suggest that strategic tree establishment can be a valuable adaptation option for reducing cattle heat stress under climate change. Tree establishment in the next few years is critical to provide adaptation capacity and economic benefit in future decades., (© 2024 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2024

60. Climate change effects on aquaculture production and its sustainable management through climate-resilient adaptation strategies: a review.

Author

Yadav NK, Patel AB, Singh SK, Mehta NK, Anand V, Lal J, Dekari D, and Devi NC

Subjects

Animals, Ecosystem, Climate Change, Aquaculture

Abstract

Aquaculture witnessed a remarkable growth as one of the fastest-expanding sector in the food production industry; however, it faces serious threat from the unavoidable impacts of climate change. Understanding this threat, the present review explores the consequences of climate change on aquaculture production and provides need based strategies for its sustainable management, with a particular emphasis on climate-resilient approaches. The study examines the multi-dimensional impacts of climate change on aquaculture which includes the shifts in water temperature, sea-level rise, ocean acidification, harmful algal blooms, extreme weather events, and alterations in ecological dynamics. The review subsequently investigates innovative scientific interventions and climate-resilient aquaculture strategies aimed at strengthening the adaptive capacity of aquaculture practices. Some widely established solutions include selective breeding, species diversification, incorporation of ecosystem-based management practices, and the implementation of sustainable and advanced aquaculture systems (aquaponics and recirculating aquaculture systems (RAS). These strategies work towards fortifying aquaculture systems against climate-induced disturbances, thereby mitigating risks and ensuring sustained production. This review provides a detailed insight to the ongoing discourse on climate-resilient aquaculture, emphasizing an immediate need for prudent measures to secure the future sustainability of fish food production sector., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

61. Think tanks and climate obstruction: Atlas affiliates in Canada.

Author

Graham N

Subjects

Canada, Humans, Fossil Fuels statistics & numerical data, Climate Change statistics & numerical data

Abstract

This paper provides a longitudinal social network and content analysis of Canadian think tanks affiliated with the Atlas network, analyzing their efforts to obstruct climate action over the last two decades. Network analysis reveals extensive and deepening board interlocks and joint memberships between these think tanks and the fossil fuel industry, other policy-planning organizations within and beyond Canada, and academic institutions. Consistent with and rooted in network ties, Atlas members produce a large and growing volume of climate-related content, including content that denies the reality and impacts of climate change, promotes and defends the fossil fuel sector, and opposes climate policy and action. Atlas affiliates are argued to be at the core of a reactionary segment of Canada's elite policy-planning network opposed to virtually all forms of climate action, while the frames and campaigns they deploy are seen as a force obstructing progress on climate change., (© 2024 The Authors. Canadian Review of Sociology/Revue canadienne de sociologie published by Wiley Periodicals LLC on behalf of Canadian Sociological Association/La Société canadienne de sociologie.)

Published

2024

62. Distinct responses to warming within picoplankton communities across an environmental gradient.

Author

Stevens BLF, Peacock EE, Crockford ET, Shalapyonok A, Neubert MG, and Sosik HM

Subjects

Seawater chemistry, Temperature, Synechococcus physiology, Synechococcus growth & development, Climate Change, Phytoplankton physiology, Seasons

Abstract

Picophytoplankton are a ubiquitous component of marine plankton communities and are expected to be favored by global increases in seawater temperature and stratification associated with climate change. Eukaryotic and prokaryotic picophytoplankton have distinct ecology, and global models predict that the two groups will respond differently to future climate scenarios. At a nearshore observatory on the Northeast US Shelf, however, decades of year-round monitoring have shown these two groups to be highly synchronized in their responses to environmental variability. To reconcile the differences between regional and global predictions for picophytoplankton dynamics, we here investigate the picophytoplankton community across the continental shelf gradient from the nearshore observatory to the continental slope. We analyze flow cytometry data from 22 research cruises, comparing the response of picoeukaryote and Synechococcus communities to environmental variability across time and space. We find that the mechanisms controlling picophytoplankton abundance differ across taxa, season, and distance from shore. Like the prokaryote, Synechococcus, picoeukaryote division rates are limited nearshore by low temperatures in winter and spring, and higher temperatures offshore lead to an earlier spring bloom. Unlike Synechococcus, picoeukaryote concentration in summer decreases dramatically in offshore surface waters and exhibits deeper subsurface maxima. The offshore picoeukaryote community appears to be nutrient limited in the summer and subject to much greater loss rates than Synechococcus. This work both produces and demonstrates the necessity of taxon- and site-specific knowledge for accurately predicting the responses of picophytoplankton to ongoing environmental change., (© 2024 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2024

63. Spatial effect of biomass energy consumption on carbon emissions reduction: the role of globalization.

Author

Zheng Y, Yu S, and Caporin M

Subjects

Carbon, Biomass, Internationality, Climate Change, Carbon Dioxide analysis

Abstract

As globalization proceeds, increasing biomass energy consumption is an important pathway to replace fossil fuels for tackling climate change by reducing emissions. This study explores the spatial spillover effect in biomass energy carbon reduction, which is frequently ignored when investigating environmental factors. It uncovers whether globalization and its dimensions can strengthen the spatial effect of biomass energy carbon reduction. Besides, we reveal whether biomass energy consumption can promote CO 2 emissions reduction while ensuring economic progress. Results show that (1) owing to the spillover effect, biomass energy consumption plays a significant role in direct and indirect enhancing carbon emissions reduction, with their feedback effects of - 0.003 or 3.3% of the direct effect. (2) Increasing overall, social and political globalization enhances biomass energy consumption's carbon reduction effect. (3) In countries with higher economic development, overall, economic and political globalization has a better promotion in the spatial effect of biomass energy carbon reduction. (4) Developing biomass energy can support the environment quality while enhancing economic growth., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

64. The 2023 report of the MJA-Lancet Countdown on health and climate change: sustainability needed in Australia's health care sector.

Author

Beggs PJ, Trueck S, Linnenluecke MK, Bambrick H, Capon AG, Hanigan IC, Arriagada NB, Cross TJ, Friel S, Green D, Heenan M, Jay O, Kennard H, Malik A, McMichael C, Stevenson M, Vardoulakis S, Dang TN, Garvey G, Lovett R, Matthews V, Phung D, Woodward AJ, Romanello MB, and Zhang Y

Subjects

Humans, Australia, Mental Health, Health Planning, Health Care Sector, Climate Change

Abstract

The MJA-Lancet Countdown on health and climate change in Australia was established in 2017 and produced its first national assessment in 2018 and annual updates in 2019, 2020, 2021 and 2022. It examines five broad domains: health hazards, exposures and impacts; adaptation, planning and resilience for health; mitigation actions and health co-benefits; economics and finance; and public and political engagement. In this, the sixth report of the MJA-Lancet Countdown, we track progress on an extensive suite of indicators across these five domains, accessing and presenting the latest data and further refining and developing our analyses. Our results highlight the health and economic costs of inaction on health and climate change. A series of major flood events across the four eastern states of Australia in 2022 was the main contributor to insured losses from climate-related catastrophes of $7.168 billion - the highest amount on record. The floods also directly caused 23 deaths and resulted in the displacement of tens of thousands of people. High red meat and processed meat consumption and insufficient consumption of fruit and vegetables accounted for about half of the 87 166 diet-related deaths in Australia in 2021. Correction of this imbalance would both save lives and reduce the heavy carbon footprint associated with meat production. We find signs of progress on health and climate change. Importantly, the Australian Government released Australia's first National Health and Climate Strategy, and the Government of Western Australia is preparing a Health Sector Adaptation Plan. We also find increasing action on, and engagement with, health and climate change at a community level, with the number of electric vehicle sales almost doubling in 2022 compared with 2021, and with a 65% increase in coverage of health and climate change in the media in 2022 compared with 2021. Overall, the urgency of substantial enhancements in Australia's mitigation and adaptation responses to the enormous health and climate change challenge cannot be overstated. Australia's energy system, and its health care sector, currently emit an unreasonable and unjust proportion of greenhouse gases into the atmosphere. As the Lancet Countdown enters its second and most critical phase in the leadup to 2030, the depth and breadth of our assessment of health and climate change will be augmented to increasingly examine Australia in its regional context, and to better measure and track key issues in Australia such as mental health and Aboriginal and Torres Strait Islander health and wellbeing., (© 2024 The Authors. Medical Journal of Australia published by John Wiley & Sons Australia, Ltd on behalf of AMPCo Pty Ltd.)

Published

2024

65. Pulp & Paper Industry Kicks off 2022 with Major Sustainability Developments.

Subjects

*PAPER industry, *CLIMATE change

Published

2022

66. Paper tiger or useful governance tool? Understanding long-term climate strategies as a climate governance instrument.

Author

Buylova, Alexandra, Nasiritousi, Naghmeh, Duit, Andreas, Reischl, Gunilla, and Lejon, Pelle

Subjects

PARIS Agreement (2016), ANTICIPATORY governance, POLITICAL science, GREENHOUSE gases, PUBLIC officers, CLIMATE change

Abstract

While climate change is often understood as a collective action and a market problem, we look at it as a problem of planning and coordination. Long-term planning is necessary to promote structural change, which will be required to keep the Paris Agreement's temperature goals. By encouraging states to develop a long-term climate strategy, the Paris Agreement invites countries to turn anticipatory governance into an international governance instrument. In this paper we explore how these strategies describe countries' climate plans and what the perceptions of government officials are about the potential for realization of these strategies. Using mixed methods, we explore both 1) planning dimensions (actions, actors and policies described in the strategies) by applying a topic modeling analysis to 50 documents; and 2) perceptions of the content and challenges to their realization among domestic policy professionals of four major emitters. Our results show that the strategies lack a detailed discussion on how decarbonization pathways could be materialized and who has the responsibility for implementation of long-term targets. Moreover, rather than being a steering instrument, the strategies are dominated by scenario planning and there is also a lack of attention to political issues. Taken together, we contend that strategies are limited in the way they present the future possibilities of low emissions development. To make them more effective in steering long-term decarbonization, greater attention needs to be placed on potential conflicts, barriers and stumbling blocks that may arise along the way. • Long-term climate planning has potential to shift the way we address climate change. • The language used in the strategies are dominated by technical terms and GHG emissions scenarios. • The strategies tend to reduce the political and social complexities of climate change. • As governance instruments, the strategies lack capacity to guide implementation and guidance on how to solve goal conflicts. • The strategies' main value is to provide a platform for alternative discussions. [ABSTRACT FROM AUTHOR]

Published

2024

67. The Impact of Climate on the Energetics of Overwintering Paper Wasp Gynes (Polistes dominula and Polistes gallicus).

Author

Kovac, Helmut, Käfer, Helmut, Petrocelli, Iacopo, Amstrup, Astrid B., and Stabentheiner, Anton

Subjects

*WINTER, *WASPS, *LOW temperatures, *ACCLIMATIZATION, *WEATHER, *GLOBAL warming, *CLIMATE change

Abstract

Simple Summary: During overwintering diapause, the gynes of paper wasps (Polistes sp.) are mainly dormant in sheltered hibernacles, protecting them against predators and adverse weather conditions but hardly against low temperatures. By measuring the temperature inside hibernacles occupied by species from both Mediterranean (Italian; P. dominula, P. gallicus) and temperate (Austrian; P. dominula) climates (mean hibernacle temperatures: 8.5 °C and 3.2 °C, respectively), we were able to calculate the energetic demand of overwintering. The cumulative energetic costs differed between the populations. Costs were lowest for the P. dominula population from the cooler Austrian winter climate and significantly higher in P. dominula and P. gallicus from the warmer Italian climate. The lower costs of the temperate species were a result of the lower winter temperature and physiological acclimation processes. Energetic calculations with an assumed temperature increase of up to 3 °C due to climate change predict a dramatic increase of up to 40% in overwintering costs in all species. Gynes of paper wasps (Polistes sp.) spend the cold season in sheltered hibernacles. These hibernacles protect against predators and adverse weather conditions but offer only limited protection against low temperatures. During overwintering diapause, wasps live on the energy they store. We investigated the hibernacles' microclimate conditions of species from the Mediterranean (Italy, P. dominula, P. gallicus) and temperate (Austria, P. dominula) climates in order to describe the environmental conditions and calculate the energetic demand of overwintering according to standard metabolic rate functions. The temperatures at the hibernacles differed significantly between the Mediterranean and temperate habitats (average in Austria: 3.2 ± 5.71 °C, in Italy: 8.5 ± 5.29 °C). In both habitats, the hibernacle temperatures showed variance, but the mean hibernacle temperature corresponded closely to the meteorological climate data. Cumulative mass-specific energetic costs over the studied period were the lowest for the temperate P. dominula population compared with both Mediterranean species. The lower costs of the temperate species were a result of the lower hibernacle temperature and acclimation to lower environmental temperatures. Model calculations with an increased mean temperature of up to 3 °C due to climate change indicate a dramatic increase of up to 40% in additional costs. [ABSTRACT FROM AUTHOR]

Published

2023

68. Assessment of historical and projected changes in extreme temperatures of Balochistan, Pakistan using extreme value theory.

Author

Naeem D, Aziz R, Awais M, and Ahmad SR

Subjects

Temperature, Pakistan, Hot Temperature, Climate Change, Environmental Monitoring

Abstract

The fundamental consequences of global warming include an upsurge in the intensity and frequency of temperature extremes. This study provides an insight into historical trends and projected changes in extreme temperatures on annual and seasonal scales across "Balochistan, Pakistan". Historical trends are analyzed through the Mann Kendal test, and extreme temperatures (Tmax and Tmin) are evaluated using generalized extreme value (GEV) distribution for historical period (1991-2020) from the observational data and the two projected periods as near-future (2041-2070) and far-future (2071-2100) using a six-member bias-corrected ensemble of regional climate models (RCMs) projections from the coordinate regional downscaling experiment (CORDEX) based on the worst emission scenario (RCP8.5). The evaluation of historical temperature trends suggests that Tmax generally increase on yearly scale and give mixed signals on seasonal scale (winter, spring, summer, and autumn); however, Tmin trends gave mixed signals at both yearly and seasonal scale. Compared to the historical period, the return levels are generally expected to be higher for Tmax and Tmin during the both projection periods in the order as far-future > near-future > historical on yearly and seasonal basis; however, the changes in Tmin are more evident. Station-averaged anomalies of + 1.9 °C and + 3.6 °C were estimated in 100-year return levels for yearly Tmax for near-future and far-future, respectively, while the anomalies in Tmin were found to be + 3.5 °C and + 4.8 °C which suggest the intensified heatwaves but milder colder extreme in future. The findings provide guidance on improved quantification of changing frequencies and severity in temperature extremes and the associated impacts., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

69. Genomics for monitoring and understanding species responses to global climate change.

Author

Bernatchez L, Ferchaud AL, Berger CS, Venney CJ, and Xuereb A

Subjects

Humans, Biodiversity, Biological Evolution, Genomics, Ecosystem, Climate Change

Abstract

All life forms across the globe are experiencing drastic changes in environmental conditions as a result of global climate change. These environmental changes are happening rapidly, incur substantial socioeconomic costs, pose threats to biodiversity and diminish a species' potential to adapt to future environments. Understanding and monitoring how organisms respond to human-driven climate change is therefore a major priority for the conservation of biodiversity in a rapidly changing environment. Recent developments in genomic, transcriptomic and epigenomic technologies are enabling unprecedented insights into the evolutionary processes and molecular bases of adaptation. This Review summarizes methods that apply and integrate omics tools to experimentally investigate, monitor and predict how species and communities in the wild cope with global climate change, which is by genetically adapting to new environmental conditions, through range shifts or through phenotypic plasticity. We identify advantages and limitations of each method and discuss future research avenues that would improve our understanding of species' evolutionary responses to global climate change, highlighting the need for holistic, multi-omics approaches to ecosystem monitoring during global climate change., (© 2023. Springer Nature Limited.)

Published

2024

70. A risk-risk trade-off assessment of climate-induced mortality risk changes.

Author

Mussio I, Chilton S, Duxbury D, and Nielsen JS

Subjects

Humans, Policy, Risk Assessment, United Kingdom, Accidents, Traffic, Climate Change

Abstract

The impact of climate change on human health was identified as a priority for the UN COP26 conference. In this article, we consider climate-induced changes to mortality risks and how to incorporate these formally in the policy appraisal process. In the United Kingdom (UK), the Value of Statistical Life (VSL) is used to monetarize the benefits of policies to reduce mortality risks but it remains an open, empirical question as to whether the current VSL (£2.14 million per fatality prevented, December 2021 values) for traffic accidents should be applied in other contexts without any modification and particularly for extreme weather event fatalities. Using a representative sample of the UK population, we aim to estimate and better understand the trade-offs people make when comparing mortality risks, drawing on psychological insights from construal level and regulatory focus theories. We design a stated preference survey using a relative valuation framework with nonmonetary, risk-risk trade-off questions between extreme weather event and traffic accident mortality risks. We find evidence of an extreme weather event risk premium of 1.2-1.6 (implying a climate-related VSL of £2.52-£3.41 million). We also find that participants who are psychologically close to climate change (based on construal level theory), weigh reducing extreme weather event mortality risks almost two times that of reducing traffic accident mortality risks., (© 2023 Battelle Memorial Institute. Risk Analysis published by Wiley Periodicals LLC on behalf of Society for Risk Analysis.)

Published

2024

71. European monitoring of genetic diversity must expand to detect impacts of climate change.

Subjects

Climate Change, Genetic Variation

Published

2024

72. A framework for modeling an agronomic system's vulnerability to climate change with reflections from the Caspian coastal agro-ecological zone of Iran.

Author

Akbari A, Sadoddin A, and Asgari H

Subjects

Iran, Agriculture, Rivers, Climate Change, Environmental Monitoring

Abstract

Assessing the vulnerability of different sectors to climate change has great importance in determining the appropriate adaptation measures to deal with climate change impacts on a river basin scale. In this research, using a framework for modeling the agronomic system vulnerability to climate change, vulnerability assessment under different scenarios was conducted for the Gorganrud River Basin located in the agro-ecological zone of the Caspian coastal plain of Iran. Considering exposure, susceptibility, and lack of resilience components, 12 indicators were chosen and quantified for both agronomic-environmental and socio-economic aspects. The SSM-iCrop2 model was used to simulate crop yield under current and climate change scenarios across the basin. The analysis indicates that in the current condition, the vulnerability level is different across the watersheds of the Gorganrud River Basin. By applying the climate change scenarios, agronomic system vulnerability would increase in the basin to some extent, particularly in Madarsu and Tilabad watersheds attributed with high vulnerability (0.63 and 0.61, respectively). This justifies the need to implement adaptation plans for encountering water shortage in the future. The analysis also suggests that the vulnerability of the agronomic system for adaptation scenarios characterized by less water consumption under climate change conditions is going to be slightly different from the vulnerability under the climate change scenarios. Due to an increase in agronomic system vulnerability under climate change scenarios, coupled with the fact that most watersheds (except Chehelchai, Nardin, and Narmab) are moderately vulnerable even under current conditions, policymakers and planners should promote crop and livelihood diversification programs aiming to prevent an increase in agronomic vulnerability., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

73. Physicians’ responsibility toward environmental degradation and climate change: A position paper of the European Federation of Internal Medicine

Author

Luís Campos, J. Vasco Barreto, Stefano Bassetti, Monica Bivol, Amie Burbridge, Pietro Castellino, João Araújo Correia, Mine Durusu-Tanriöver, Carmen Fierbinteanu-Braticevici, Thomas Hanslik, Zbigniew Heleniak, Radovan Hojs, Leonid Lazebnic, Maria Mylona, Matthias Raspe, João Queirós e Melo, Filomena Pietrantonio, Reinold Gans, Runólfur Pálsson, Nicola Montano, Ricardo Gómez-Huelgas, Dror Dicker, Lifelong Learning, Education & Assessment Research Network (LEARN), and Groningen Kidney Center (GKC)

Subjects

Greenhouse Gases, Climate Change, Physicians, Ecological health footprint, Internal Medicine, Humans, Environment, EFIM position paper, Hospitals

Abstract

The current data on climate change and environmental degradation are dramatic. The consequences of these changes are already having a significant impact on people's health. Physicians - as advocates of the patients, but also as citizens - have an ethical obligation to be involved in efforts to stop these changes. The European Federation of Internal Medicine (EFIM) strongly encourages the Internal Medicine societies and internists across Europe to play an active role in matters related to climate change and environmental degradation. At a national level, this includes advocating the adoption of measures that reduce greenhouse gas (GHG) emissions and environmental degradation and contributing to policy decisions related to these issues. At a hospital level and in clinical practice, supporting actions by the health sector to reduce its ecological footprint is vital. At the level of EFIM and its associated internal societies, promoting educational activities and developing a toolkit to prepare internists to better care for citizens who suffer from the consequences of climate change. In addition to advocating and implementing effective actions to reduce the ecological footprint of the health industry, recommending the introduction of these themes in scientific programs of Internal Medicine meetings and congresses and the pre- and postgraduate medical training. At a personal level, internists must be active agents in advocating sustainable practices for the environment, increasing the awareness of the community about the health risks of climate change and environmental degradation, and being role models in the adoption of environmentally friendly behaviour.

Published

2022

74. Decarbonizing the pulp and paper industry:A critical and systematic review of sociotechnical developments and policy options

Author

Dylan D. Furszyfer Del Rio, Benjamin K. Sovacool, Steve Griffiths, Morgan Bazilian, Jinsoo Kim, Aoife M. Foley, and David Rooney

Subjects

Pulp and paper manufacturing, Renewable Energy, Sustainability and the Environment, Pulp and paper processes, Sustainability transitions, Climate mitigation, Net-zero, Climate change, Industrial decarbonization, Energy policy

Abstract

Paper has shaped society for centuries and is considered one of humanity's most important inventions. However, pulp and paper products can be damaging to social and natural systems along their lifecycle of material extraction, processing, transportation, and waste handling. The pulp and paper industry is among the top five most energy-intensive industries globally and is the fourth largest industrial energy user. This industry accounts for approximately 6% of global industrial energy use and 2% of direct industrial CO2 emissions. The pulp and paper industry is also the largest user of original or virgin wood, with deleterious impacts on both human health and local flora and fauna, including aquatic ecosystems. This critical and systematic review seeks to identify alternatives for mitigating the climate impacts of pulp and paper processes and products, thus making the pulp and paper industry more environmentally sustainable. This study reviews 466 studies to answer the following questions: what are the main determinants of energy and carbon emissions emerging from the pulp and paper industry? What are the benefits of this industry adopting low-carbon manufacturing processes, and what barriers will need to be tackled to enable such adoption? Using a sociotechnical lens, we answer these questions, identify barriers for the pulp and paper industry's decarbonization, and present promising avenues for future research.

Published

2022

75. Not just range limits: Warming rate and thermal sensitivity shape climate change vulnerability in a species range center.

Author

Beaty F, Gehman AM, Brownlee G, and Harley CDG

Subjects

Temperature, Seawater, British Columbia, Climate Change, Ecosystem

Abstract

Climate change manifests unevenly across space and time and produces complex patterns of stress for ecological systems. Species can also show substantial among-population variability in response to environmental change across their geographic range due to evolutionary processes. Explanatory factors or their proxies, such as temperature and latitude, help parse these sources of environmental and intraspecific variability; however, overemphasizing latitudinal trends can obscure the role of local environmental conditions in shaping population vulnerability to climate change. Focusing on the geographic center of a species range to disentangle latitude, we test the hypothesis that populations from warmer regions of a species range are more vulnerable to ocean warming. We conducted a mesocosm experiment and field reciprocal transplant with four populations of a marine snail, Nucella lamellosa, from two regions in British Columbia, Canada, that differ in thermal characteristics: the Central Coast, a cool region, and the Strait of Georgia, one of the warmest regions of this species' range and one that is warming faster than the Central Coast. Populations from the Strait of Georgia experienced growth reductions at contemporary summertime seawater temperatures in the laboratory and showed stark reductions in survival and growth under future seawater conditions and when outplanted at their native transplant sites. This indicates a high vulnerability to ocean warming, especially given the faster rate of ocean warming in this region. In contrast, populations from the cooler Central Coast demonstrated high performance at contemporary seawater temperatures and high growth and survival in projected future seawater temperatures and at their native outplant sites. Given their position within the geographic center of N. lamellosa's range, extirpation events in the vulnerable Strait of Georgia populations could compromise connectivity within the metapopulation and lead to gaps across this species' range. Overall, our study supports predictions that populations from warm regions of species ranges are more vulnerable to environmental warming, suggests that the Strait of Georgia and other inland or coastal seas could be focal points for climate change effects and ecological transformation, and emphasizes the importance of analyzing climate change vulnerability in the context of regional environmental data and throughout a species' range., (© 2023 The Authors. Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America.)

Published

2023

76. Complexity influence of societal development comprehensive indicators on building carbon emission: empirical evidence from China.

Author

Yang Q, Wang J, Liu X, and Liu Y

Subjects

China, Social Conditions, Technology, Carbon Dioxide, Economic Development, Carbon, Climate Change

Abstract

Carbon mitigation in the building sector is crucial for China to fulfill its commitments towards achieving a carbon peak and carbon neutrality. However, the impact of societal development and ecological indicators on building carbon emissions remains unclear. This study employs the panel smooth transition regression model to investigate the complex implications of societal development comprehensive indicators, characterized by harmonious development, decoupling, and technological advances, on buildings' total carbon emissions, based on the evidence from China's 30 provinces for the period between 2007 and 2020. Additionally, the robustness of the model confirms that the conclusion is still valid. The empirical results indicate a strongly non-linear relationship between societal development comprehensive indicators and building carbon emissions. Both the harmonious development and technological advances exhibit two transition functions, and decoupling features a single transition function. Harmonious development is more sensitive to the impact of building carbon emissions, while technological advances have tremendous emission reduction potential. From the time dimension, fluctuation trends and ranges are different. From the spatial dimension, the inhibiting and promoting effects on each province have regional heterogeneity. Our results entail suggestions for reduced building total carbon emissions and practical strategies for regional climate resilience and efficiency in mitigating climate change., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

77. Impact of digital trade on regional carbon emissions.

Author

Ji H, Xiong B, and Zhou F

Subjects

China, Economic Development, Industry, Carbon Dioxide, Carbon, Climate Change

Abstract

In the context of the dual carbon targets, digital trade brings new impetus to China's economic development to achieve low-carbon emission reduction. This article uses panel data from 30 provinces in China from 2011 to 2020, and uses a two-way fixed effect model to empirically investigate the impact of digital trade development on regional carbon emissions and its heterogeneity. The results show that the development of digital trade significantly reduces regional carbon emissions, and the conclusion is still valid after conducting the robustness tests. Digital trade can reduce regional carbon emissions by exploiting its effects of expanding economic scale, upgrading industrial structure, and promoting green technology innovation. In addition, the carbon reduction effect of digital trade varies due to differences in regions, trade openness, and carbon emission intensity. The carbon reduction effect of digital trade in central and western regions is larger than that in eastern regions, and the effect in inland regions is greater than that in coastal regions. As the degree of trade liberalization increases and carbon intensity decreases, the carbon reduction effect of digital trade will also weaken. The research conclusions have profound practical significance for achieving the carbon neutrality target, effectively addressing climate change, and promoting high-quality economic development., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

78. Climate change impacts on plant pathogens, food security and paths forward.

Author

Singh BK, Delgado-Baquerizo M, Egidi E, Guirado E, Leach JE, Liu H, and Trivedi P

Subjects

Plants, Biodiversity, Food Security, Ecosystem, Climate Change

Abstract

Plant disease outbreaks pose significant risks to global food security and environmental sustainability worldwide, and result in the loss of primary productivity and biodiversity that negatively impact the environmental and socio-economic conditions of affected regions. Climate change further increases outbreak risks by altering pathogen evolution and host-pathogen interactions and facilitating the emergence of new pathogenic strains. Pathogen range can shift, increasing the spread of plant diseases in new areas. In this Review, we examine how plant disease pressures are likely to change under future climate scenarios and how these changes will relate to plant productivity in natural and agricultural ecosystems. We explore current and future impacts of climate change on pathogen biogeography, disease incidence and severity, and their effects on natural ecosystems, agriculture and food production. We propose that amendment of the current conceptual framework and incorporation of eco-evolutionary theories into research could improve our mechanistic understanding and prediction of pathogen spread in future climates, to mitigate the future risk of disease outbreaks. We highlight the need for a science-policy interface that works closely with relevant intergovernmental organizations to provide effective monitoring and management of plant disease under future climate scenarios, to ensure long-term food and nutrient security and sustainability of natural ecosystems., (© 2023. Springer Nature Limited.)

Published

2023

79. Determinants of Farmers' Adaptation Intent And Adoption of Adaptation Strategies To Climate Change And Variability In Mwanga District, Tanzania.

Author

Bagambilana FR and Rugumamu WM

Subjects

Humans, Tanzania, Cross-Sectional Studies, Farms, Agriculture methods, Farmers, Climate Change

Abstract

Pegged on Protection Motivation Theory, a modified socio-cognitive model of private adaptation to climate change and variability was deployed in order to provide a better understanding of the determinants of small-scale farmers' adaptation intent and adoption of adaptation strategies in semi-arid lowlands of Mwanga District. In this regard, adaptation was conceptualized as a two-step process encompassing farmers' perceptions that climate was changing and farmers' response to changes. Basing on a pragmatic philosophy, a cross-sectional sequential explanatory mixed methods research design was deployed. During the first step-process, categorical data were collected through administration of a closed-ended survey questionnaire to 328 household heads. Binary and proportional odds logistic regressions were run through IBM SPSS (Version 20) in order to analyze categorical data for testing nine (9) null hypotheses. Statistically significant results were established when p values were < 0.05 at 95% confidence intervals. During the second step-process, qualitative data were generated through focus group discussions with 30 participants, in-depth interviews with 16 key informants, and participant observations and subjected to iterative thematic content analysis. The findings revealed that income, village's geographical location, farming system, membership to farmer-based group, competitive price for produce, credit, age, education, and extension service positively influenced farmers' adoption of adaptation strategies while workforce and perceived risk of rain on crop yields negatively influenced farmers' adoption of adaptation strategies. Thus, it was concluded that farmers' adaptation intent and adoption of adaptation strategies in the study area were largely explained by objective adaptive capacity rather than cognitive factors., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

80. Sustainability-driven market impacts of climate change and firms’ renewable energy innovation: a conceptual analysis

Author

Rastegar, Hiva, Eweje, Gabriel, and Sajjad, Aymen

Published

2024

81. SUSTAINABILITY IN THE PRINT AND PACKAGING INDUSTRY.

Author

AYDEMIR, CEM, YENIDOĞAN, SEMIHA, and TUTAK, DOĞAN

Subjects

RAW materials, CELLULOSE, PAPER recycling, ECOLOGICAL impact, CLIMATE change

Abstract

In the printing and packaging industry, sustainability is defined as manufacture and practices that reflect responsibility for the environment and resources to meet the needs and expectations of future generations. In this article, raw material management, cellulose resources, industrial forests, ecological and renewable alternative fiber resources were examined in the framework of the sustainability of the printing and packaging industry. The recycling of printed materials and packaging and the effects of paper-ink types and product design in this recycling have been discussed. The effect of separation and processing at the source on the efficiency of paper recycling, economy and ecology was emphasized. The greenhouse gas emissions of solvents used in inks and cleaners, the impact on climate change, water footprint and carbon footprint issues were examined. Suggestions have been made on environmental sustainability in the printing industry, what needs to be done for a competitive production, successful optimization, minimization of waste, use of existing possibilities, recycling and evaluation of alternatives and use of clean energy. [ABSTRACT FROM AUTHOR]

Published

2023

82. Anthropogenic and climatic impacts on historic sediment, carbon, and phosphorus accumulation rates using 210 Pb ex and 137 Cs in a sub-watershed linked to Zarivar Lake, Iran.

Author

Khodadadi M, Gibbs M, Swales A, Toloza A, and Blake WH

Subjects

Iran, Water Pollutants, Chemical analysis, Anthropogenic Effects, Lakes chemistry, Geologic Sediments chemistry, Cesium Radioisotopes analysis, Phosphorus analysis, Lead Radioisotopes analysis, Climate Change, Environmental Monitoring, Carbon analysis

Abstract

To estimate a watershed's response to climate change, it is crucial to understand how human activities and climatic extremes have interacted over time. Over the last century, the Zarivar Lake watershed, Iran, has been subjected to various anthropogenic activates, including deforestation and inappropriate land-management practices alongside the implementation of conservation measures like check dams. To understand the effects of these changes on the magnitude of sediment, organic carbon (OC), and phosphorus supplies in a small sub-watershed connected to the lake over the last century, a lake sediment core was dated using 210 Pb ex and 137 Cs as geochronometers. The average mass accumulation rate (MAR), organic carbon accumulation rates (OCAR), and particulate phosphorus accumulation rates (PPAR) of the sediment core were determined to be 6498 ± 2475, 205 ± 85, and 8.9 ± 3.3 g m -2  year -1 , respectively. Between the late 1970s and early 1980s, accumulation rates were significantly higher than their averages at 7940 ± 3120, 220 ± 60, and 12.0 ± 2.8 g m -2  year -1 respectively. During this period, the watershed underwent extensive deforestation (12%) on steep slopes, coinciding with higher mean annual precipitations (more than double). Conversely, after 2009, when check dams were installed in the sub-watershed, the sediment load to the lake became negligible. The results of this research indicate that anthropogenic activities had a pronounced effect on MAR, OCAR, and PPAR, causing them to fluctuate from negligible amounts to values twice the averages over the last century, amplified by climatic factors. These results imply that implementing climate-smart watershed management strategies, such as constructing additional check dams and terraces, reinforcing restrictions on deforestation, and minimum tillage practices, can facilitate protection of lacustrine ecosystems under accelerating climate change conditions., (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published

2024

83. Does Trust Lead to the Adoption of a Productive Climate Attitude? Relationship Between Trust, Corruption, and Climate Attitude in Developing Regions.

Author

da Silva FR, Gerhard F, De Paula TM, Victor C, and da Silva Cruz Neto LA

Subjects

Humans, Latin America, Developing Countries, Male, Female, Adult, Trust, Climate Change, Attitude

Abstract

This study examines the relationship between institutional trust from an individual and societal perspective and perceived corruption and climate attitudes of individuals in Latin America. To this end, multilevel modeling was used to test whether the attitudes of individuals from 285 regions of Latin America are influenced by these constructs. Based on the results, it was found that in contrast to studies in developed countries, where institutional trust is positively associated with pro-climate attitudes, in Latin America institutional trust acts as an inhibiting factor and is inversely related to climate attitudes. Furthermore, the perception of corruption in public institutions was also identified as a factor inhibiting collective action to combat climate change. Moderation analysis revealed that individuals' level of education significantly influences this relationship, with a notable difference in climate attitudes between individuals with low and high levels of trust, especially among those with less education. These findings highlight the importance of taking regional specificities into account when examining the relationship between institutional trust, perceptions of corruption, and climate attitudes, and underscore the need for public policies that promote transparency and accountability of institutions to foster effective collective action on climate change., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

84. Exploring extremophilic fungi in soil mycobiome for sustainable agriculture amid global change.

Author

Yarzábal Rodríguez LA, Álvarez Gutiérrez PE, Gunde-Cimerman N, Ciancas Jiménez JC, Gutiérrez-Cepeda A, Ocaña AMF, and Batista-García RA

Subjects

Extremophiles metabolism, Crops, Agricultural microbiology, Soil chemistry, Soil Microbiology, Agriculture methods, Fungi genetics, Fungi metabolism, Mycobiome, Climate Change

Abstract

As the Earth warms, alternatives to traditional farming are crucial. Exploring fungi, especially poly extremophilic and extremotolerant species, to be used as plant probiotics, represents a promising option. Extremophilic fungi offer avenues for developing and producing innovative biofertilizers, effective biocontrol agents against plant pathogens, and resilient enzymes active under extreme conditions, all of which are crucial to enhance agricultural efficiency and sustainability through improved soil fertility and decreased reliance on agrochemicals. Yet, extremophilic fungi's potential remains underexplored and, therefore, comprehensive research is needed to understand their roles as tools to foster sustainable agriculture practices amid climate change. Efforts should concentrate on unraveling the complex dynamics of plant-fungi interactions and harnessing extremophilic fungi's ecological functions to influence plant growth and development. Aspects such as plant's epigenome remodeling, fungal extracellular vesicle production, secondary metabolism regulation, and impact on native soil microbiota are among many deserving to be explored in depth. Caution is advised, however, as extremophilic and extremotolerant fungi can act as both mitigators of crop diseases and as opportunistic pathogens, underscoring the necessity for balanced research to optimize benefits while mitigating risks in agricultural settings., (© 2024. The Author(s).)

Published

2024

85. Climate risk analysis of low-altitude tea gardens in central Taiwan using a Bayesian network.

Author

Wang YC, Chen CT, Li RY, Lu YH, and Chiang LC

Subjects

Taiwan, Risk Assessment, Altitude, Camellia sinensis growth & development, Agriculture, Gardens, Environmental Monitoring methods, Bayes Theorem, Climate Change, Tea

Abstract

Tea is a vital agricultural product in Taiwan. Due to global warming, the increasing extreme weather events have disrupted tea garden conditions and caused economic losses in agriculture. To address these challenges, a comprehensive tea garden risk assessment model, a Bayesian network (BN), was developed by considering various factors, including meteorological data, disaster events, tea garden environment (location, altitude, tea tree age, and soil characteristics), farming practices, and farmer interviews, and constructed risk assessment indicators for tea gardens based on the climate change risk analysis concept from the Intergovernmental Panel on Climate Change Fifth Assessment Report (IPCC AR5). The results demonstrated an accuracy of over 92% in both validating and testing the model for tea tree damage and yield reduction. Sensitivity analysis revealed that tea tree damage and yield reduction were mutually influential, with weather, fertilization, and irrigation also impacting tea garden risk. Risk analysis under climate change scenarios from various global climate models (GCMs) indicated that droughts may pose the highest risk with up to 41% and 40% of serious tea tree growth damage and tea yield reduction, respectively, followed by cold events that most tea gardens may have less than 20% chances of serious impacts on tea tree growth and tea yield reduction. The impacts of heavy rains get the least concern because all five tea gardens may not be affected in terms of tea tree growth and tea yield with large chances of 67 to 85%. Comparing farming methods, natural farming showed lower disaster risk than conventional and organic approaches. The tea plantation risk assessment model can serve as a valuable resource for analyzing and offering recommendations for tea garden disaster management and is used to assess the impact of meteorological disasters on tea plantations in the future., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

86. Optimistic growth of marginal region plantations under climate warming: Assessing divergent drought resilience.

Author

Li J, Xie Y, Camarero JJ, Gazol A, González de Andrés E, Ying L, and Shen Z

Subjects

China, Trees growth & development, Forestry, Pinus growth & development, Pinus physiology, Temperature, Conservation of Natural Resources, Droughts, Global Warming, Climate Change

Abstract

Given the context of significant global warming and the intensification of extreme climate events in the last century, large-scale reforestation and afforestation have been recognized as effective strategies to mitigate the climate crisis. Since the 1970s, China has launched several afforestation programs aimed at regional ecological protection, playing an important role in reaching carbon neutrality by 2060. This study provided a detailed analysis of the growth suitability of the main planted conifers (Pinus sylvestris var. mongolica and Pinus tabulaeformis) and broadleaves (Populus spp., Robinia pseudoacacia) in the semi-arid northern China. We compared the radial growth trends of plantations and their responses to extreme droughts from 1980 to 2018. Growth of most plantations has significantly increased over time, but broadleaves showed recent growth reductions in the past decade, which may be related to tree age and reduced soil moisture. Nevertheless, under warmer climate scenarios, the growth of plantations is forecasted to continue increasing. Broadleaves showed a better post-drought recovery, probably linked to their anisohydric behavior, than conifers, which presented a better resistance to drought. Growth of conifers depended more on warmer temperature and better precipitation conditions during the growing season, whereas broadleaves mainly reacted to warm temperature. Additionally, pre-drought growth levels weakened resilience components, while post-drought precipitation compensated for drought-induced growth deficit. Growth and resilience were negatively related to tree age, while higher stand density reduced growth. This assessment and projections of growth and drought resilience indicate the sustainability of most plantations in semi-arid regions, but future warmer and drier conditions may lead to an uncertain future regarding forest health and reduce their carbon sink potential., (© 2024 John Wiley & Sons Ltd.)

Published

2024

87. Impacts of marine heatwaves in coastal ecosystems depend on local environmental conditions.

Author

Starko S, van der Mheen M, Pessarrodona A, Wood GV, Filbee-Dexter K, Neufeld CJ, Montie S, Coleman MA, and Wernberg T

Subjects

Aquatic Organisms physiology, Coral Reefs, Animals, Hot Temperature, Acclimatization, Climate Change, Ecosystem

Abstract

Marine heatwaves (MHWs), increasing in duration and intensity because of climate change, are now a major threat to marine life and can have lasting effects on the structure and function of ecosystems. However, the responses of marine taxa and ecosystems to MHWs can be highly variable, making predicting and interpreting biological outcomes a challenge. Here, we review how biological responses to MHWs, from individuals to ecosystems, are mediated by fine-scale spatial variability in the coastal marine environment (hereafter, local gradients). Viewing observed responses through a lens of ecological theory, we present a simple framework of three 'resilience processes' (RPs) by which local gradients can influence the responses of marine taxa to MHWs. Local gradients (1) influence the amount of stress directly experienced by individuals, (2) facilitate local adaptation and acclimatization of individuals and populations, and (3) shape community composition which then influences responses to MHWs. We then synthesize known examples of fine-scale gradients that have affected responses of benthic foundation species to MHWs, including kelp forests, coral reefs, and seagrass meadows and link these varying responses to the RPs. We present a series of case studies from various marine ecosystems to illustrate the differential impacts of MHWs mediated by gradients in both temperature and other co-occurring drivers. In many cases, these gradients had large effect sizes with several examples of local gradients causing a 10-fold difference in impacts or more (e.g., survival, coverage). This review highlights the need for high-resolution environmental data to accurately predict and manage the consequences of MHWs in the context of ongoing climate change. While current tools may capture some of these gradients already, we advocate for enhanced monitoring and finer scale integration of local environmental heterogeneity into climate models. This will be essential for developing effective conservation strategies and mitigating future marine biodiversity loss., (© 2024 The Author(s). Global Change Biology published by John Wiley & Sons Ltd.)

Published

2024

88. Climate change from the Asia-Pacific perspective: What an allergist needs to know and do.

Author

Zain A, Yeo I, Wong L, and Shek LP

Subjects

Humans, Asia, Carbon Footprint, Climate Change, Allergists, Hypersensitivity epidemiology

Abstract

Allergic diseases such as asthma, atopic dermatitis, and food allergies are a burgeoning health challenge in the Asia-Pacific region. Compounding this, the region has become increasingly susceptible to the impacts of climate change. The region has weathered extreme precipitation, intense heat waves, and dust storms over the recent decades. While the effects of environmental and genetic factors on allergic diseases are well understood, prevailing gaps in understanding the complex interactions between climate change and these factors remain. We aim to provide insights into the various pathways by which climate change influences allergic diseases in the Asia-Pacific population. We outline practical steps that allergists can take to reduce the carbon footprint of their practice on both a systemic and patient-specific level. We recommend that allergists optimize disease control to reduce the resources required for each patient's care, which contributes to reducing greenhouse gas emissions. We encourage the responsible prescription of metered dose inhalers by promoting the switch to dry powder inhalers for certain patients, at each clinician's discretion. We also recommend the utilization of virtual consultations to reduce patient travel while ensuring that evidence-based guidelines for rational allergy management are closely adhered to. Finally, eliminating unnecessary testing and medications will also reduce greenhouse gas emissions in many areas of medical care., (© 2024 The Author(s). Pediatric Allergy and Immunology published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published

2024

89. Consideration of Climate Change on Environmental Impact Assessment in Tanzania: Challenges and Prospects.

Author

Pauline NM and Lema GA

Subjects

Tanzania, Conservation of Natural Resources methods, Environment, Climate Change, Environmental Policy legislation & jurisprudence

Abstract

The potential of the environmental impact assessment (EIA) process to respond to climate change impacts of development projects can only be realized with the support of policies, regulations, and actors' engagement. While considering climate change in EIA has become partly mandatory through the EU revised Directive in Europe, African countries are still lagging. This paper assesses Tanzanian policies, laws, regulations, and EIA reports to uncover consideration of climate change impacts, adaptation, and mitigation measures, drawing from the transformational role of EIA. The methodology integrates content analysis, interpretive policy analysis, and discourse analysis. The analyses draw from environmental policy, three regulatory documents and three EIA reports in Tanzania using a multi-cases study design. The aim was to understand how considering Climate Change issues in EIA has played out in practice. Results reveal less consideration of climate change issues in EIA. The policy, laws, and regulations do not guide when and how the EIA process should consider climate change-related impacts mitigation and adaptation. The practice of EIA in the country is utterly procedural in line with regulations provisions. Consequently, environmental impact statements only profile the climatology of the study area without conducting a deeper analysis of the historical and future climate to enhance the resilience of proposed projects. The weakness exposed in the laws and regulations contributes to the challenges of responding to the impacts of climate change through the EIA process. It is possible to address climate change issues throughout the project life cycle, including design, approval, implementation, monitoring, and auditing, provided the policy and regulations guide how and when the EIA process should consider climate change issues. Additionally, increasing stakeholders' awareness and participation can enhance the EIA process's potential to respond to the impacts of climate change., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

90. Nursing students' and educators' perspectives on sustainability and climate change: An integrative review.

Author

Aronsson J, Nichols A, Warwick P, and Elf M

Subjects

Humans, Curriculum, Attitude of Health Personnel, Adult, Education, Nursing, Female, Male, Climate Change, Students, Nursing psychology, Students, Nursing statistics & numerical data, Faculty, Nursing psychology

Abstract

Aim: To identify and synthesize research on the awareness, attitudes and action related to sustainability and climate change from the perspective of nursing students and educators globally., Design: Integrative review., Methods: The review was guided by Whittemore and Knafl. Included studies were appraised using the Mixed Methods Appraisal Tool. A deductive content analysis based on Elo and Kyngäs' methodology was employed., Data Sources: CINAHL, MEDLINE, EMBASE, Web of Science, British Education Index, GreenFILE and Scopus were searched up to the 8th November 2022., Results: Thirty-two studies were included in the review. Two studies included nursing educators in their samples, the rest focused solely on students. Findings suggest that whilst some students were aware of sustainability issues and felt that nurses have a responsibility to mitigate climate change, others showed limited awareness and believed that nurses have more important priorities. A global interest was seen among students for increased curricular content related to sustainability and climate change. Waste management and education of others were suggested actions students can take; however, barriers included lack of confidence and limited power., Conclusion: There is a need for sustainability education within nursing curricula, accompanied by student support., Implications for the Profession: The review acts as a starting point to make sustainable healthcare and climate change mitigation integral aspects of nursing., Impact: Sustainability education within nursing curricula can positively impact on sustainable healthcare and climate change mitigation. More research is needed on the perspectives of nursing educators., Reporting Method: The review is reported according to the PRISMA guidelines., Patient or Public Contribution: No Patient or Public Contribution., (© 2023 The Authors. Journal of Advanced Nursing published by John Wiley & Sons Ltd.)

Published

2024

91. Aquatic connectivity: challenges and solutions in a changing climate.

Author

Franklin PA, Bašić T, Davison PI, Dunkley K, Ellis J, Gangal M, González-Ferreras AM, Gutmann Roberts C, Hunt G, Joyce D, Klöcker CA, Mawer R, Rittweg T, Stoilova V, and Gutowsky LFG

Subjects

Animals, Ecosystem, Fresh Water, Climate Change, Conservation of Natural Resources, Biodiversity, Fishes physiology

Abstract

The challenge of managing aquatic connectivity in a changing climate is exacerbated in the presence of additional anthropogenic stressors, social factors, and economic drivers. Here we discuss these issues in the context of structural and functional connectivity for aquatic biodiversity, specifically fish, in both the freshwater and marine realms. We posit that adaptive management strategies that consider shifting baselines and the socio-ecological implications of climate change will be required to achieve management objectives. The role of renewable energy expansion, particularly hydropower, is critically examined for its impact on connectivity. We advocate for strategic spatial planning that incorporates nature-positive solutions, ensuring climate mitigation efforts are harmonized with biodiversity conservation. We underscore the urgency of integrating robust scientific modelling with stakeholder values to define clear, adaptive management objectives. Finally, we call for innovative monitoring and predictive decision-making tools to navigate the uncertainties inherent in a changing climate, with the goal of ensuring the resilience and sustainability of aquatic ecosystems., (© 2024 His Majesty the King in Right of Canada, Crown Copyright, Institute of Marine Research and The Authors. Journal of Fish Biology published by John Wiley & Sons Ltd on behalf of Fisheries Society of the British Isles. Reproduced with the permission of the Minister of Fisheries and Oceans Canada. This article is published with the permission of the Controller of HMSO and the King's Printer for Scotland.)

Published

2024

92. Views of Psychiatrists and Psychiatry Trainees on Climate Change: Distress, Training Needs, and Envisioned Role.

Author

Vidal C and Latkin C

Subjects

Humans, Female, Male, Adult, Surveys and Questionnaires, Middle Aged, Psychiatrists, Climate Change, Psychiatry education, Attitude of Health Personnel

Abstract

Objective: Increasing evidence demonstrates that climate change has effects on mental health. Given the magnitude of climate change's health consequences, mitigation and adaptation will require massive societal changes and the involvement of individuals and professional organizations. The aim of this research was to assess the views of psychiatrists and psychiatrists-in-training about climate change and its effects on health, perceived barriers to discussing climate change in their clinical, teaching, research, and advocacy work, personal preparedness for climate action, and expected roles of their professional organizations., Methods: The authors administered an online anonymous survey to members of two mid-Atlantic professional psychiatric organizations. Measures included an adaptation of The International Climate and Health Survey and demographic and career characteristics. Descriptive statistics for categorical variables were conducted., Results: The majority of the 67 participants who completed the survey were White and senior in their career, and almost all were clinicians. Most were concerned about climate change and its mental health effects on patients and supported their organizations' engagement in activities related to this topic. Barriers to engagement in climate change action included lack of time and believing it would not make a difference., Conclusions: These findings demonstrate a desire of psychiatrists involved in teaching, research, and clinical work to address climate change and a need for training. These findings highlight the need for preparedness as newer generations face more disasters related to climate change, and experience psychological distress related to climate change., (© 2024. The Author(s), under exclusive licence to Academic Psychiatry, LLC.)

Published

2024

93. Climate Change, Kidney Health, and Environmentally Sustainable Kidney Care: A Multinational Survey of Health Care Professionals.

Author

Sandal S, Ethier I, Onu U, Fung W, Bajpai D, Bilchut WH, Bagasha P, De Chiara L, Hafiz E, Smyth B, Kelly D, Pippias M, and Jha V

Subjects

Humans, Health Personnel, Kidney Diseases therapy, Kidney Diseases epidemiology, Surveys and Questionnaires, Male, Female, Climate Change

Published

2024

94. How can dry tropical forests respond to climate change? Predictions for key Non-Timber Forest Product species show different trends in India.

Author

Saraf PN, Srivastava J, Munoz F, Charles B, and Samal P

Subjects

India, Ecosystem, Environmental Monitoring, Trees, Conservation of Natural Resources, Climate Change, Forests, Tropical Climate

Abstract

The present study provides an assessment of the distribution of key Non-Timber Forest Product species in India, namely Aegle marmelos (L.) Correa, Buchanania lanzan Spreng., Madhuca longifolia (J. Koenig ex L.) J. F. Macbr., Phyllanthus emblica L. and Terminalia bellirica (Gaertn.) Roxb. The suitable habitat was analyzed under current climate scenarios and subsequently, the future distribution (2050s and 2070s) was mapped under RCP 2.6 and 8.5 scenarios, along with the past distribution (mid-Holocene, ~ 6000 cal year BP) using the MaxEnt species distribution model. The distribution of all species is primarily driven by key bioclimatic factors, including annual precipitation (Bio&#95;12), mean annual temperature (Bio&#95;1), isothermality (Bio&#95;3) and precipitation of the coldest quarter (Bio&#95;19). The results indicate that the present distribution of these species is mainly centred in the Western Ghats regions, Central Highlands, North-eastern India and Siwalik hills. The current study suggests that under the future climate change, the suitable habitat for A. marmelos and T. bellirica is expected to increase while for B. lanzan, M. longifolia and P. emblica, it is projected to decline. A. marmelos and T. bellirica are anticipated to exhibit resilience to future climate changes and are expected to be minimally affected, while B. lanzan, M. longifolia and P. emblica are highly sensitive to high temperature and alteration in rainfall pattern expected under future climate changes. The projections of habitat suitability areas can be used as a valuable foundation for developing conservation and restoration strategies aimed at alleviating the climate change impacts on NTFP species., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

95. Climate-conscious sedation: how can we sustainably manage dental anxiety using inhalation sedation?

Author

Jones A, Clark H, and Girdler J

Subjects

Humans, Anesthetics, Inhalation administration & dosage, United Kingdom, Anesthesia, Dental methods, Dental Anxiety prevention & control, Conscious Sedation methods, Nitrous Oxide administration & dosage, Nitrous Oxide therapeutic use, Climate Change

Abstract

Climate change represents an urgent global threat. Without action, rising temperatures resulting from human activity will increasingly affect our health and wellbeing through changing patterns of disease, extreme weather events and availability of resources. Expedient decarbonisation of the UK economy is an ambitious goal to which we must all contribute.The NHS aims to be the world's first net-zero health service and reach carbon-neutral status by 2040. Dental services are particularly resource-intensive. Some dental anxiety management techniques have a disproportionately high impact on the environment relative to their usage. Inhalation sedation with nitrous oxide is one such example.Nitrous oxide is a greenhouse gas almost 300 times more potent than carbon dioxide, but its utility to facilitate dental treatment for anxious and vulnerable patients is well-documented. This paper balances the health utility with environmental and social harm of continuing to use nitrous oxide and suggests evidence-based methods we can apply to limit the environmental impact of sedation services., (© 2024. The Author(s), under exclusive licence to the British Dental Association.)

Published

2024

96. The driving forces behind renewable energy consumption: A comprehensive analysis of key determinants and environmental concerns in ASEAN countries.

Author

Yusoff NYM, Aris H, Nasiruddin WHM, Rusli AKC, Yurnaidi Z, Safrina R, Utama NA, and Rosalia SA

Subjects

Air Pollution, Renewable Energy, Climate Change

Abstract

Renewable energy consumption is a crucial solution to addressing pressing environmental issues, particularly climate change and air pollution. Investigating the factors that drive its adoption is highly significant, as it provides policymakers and stakeholders with valuable insights to accelerate the transition to renewable energy sources. Through this approach, we can minimise the negative consequences of our reliance on fossil fuels, thereby protecting the integrity of the environment. Therefore, the primary goal of this study is to thoroughly investigate the main factors that influence renewable energy consumption and environmental change in six specifically chosen ASEAN countries. The stationarity of the 1990-2019 data was tested using panel data techniques such as Levin, Lin, and Chu (LLC), Im Pesaran (IPS), and the Shin W-stat test. According to the stationarity tests, after the first order, all variables exhibit stationarity. Additionally, Pedroni's co-integration test result confirmed that there was a long-term relationship among the variables. Different methods, such as dynamic ordinary least squares (DOLS), fully modified ordinary least squares (FMOLS), and pooled ordinary least squares (POLS), are used for cointegration estimating. The results suggest that there is a positive co-integration between renewable energy use and GDP in six ASEAN countries, indicating a long-term relationship. The positive relationship between GDP and renewable energy use suggests that economic growth is the primary driving force behind ASEAN's renewable energy adoption. However, factors like carbon emissions, population density, and foreign direct investment (FDI) negatively impact the demand for renewable energy. The limited availability of renewable energy in certain ASEAN countries may discourage foreign direct investment (FDI) due to the inverse relationship between FDI and renewable energy use. The studies also revealed that carbon emissions, which contribute to environmental pollution, do not motivate industries to invest in renewable energy. This finding would challenge the Environmental Kuznets Curve (EKC) hypothesis. According to the EKC, there is a significant transition towards renewable energy as a response to environmental degradation. However, it is worth noting that several ASEAN countries have experienced economic growth while also experiencing higher levels of carbon emissions. Given that economic expansion might not be environmentally beneficial, this research has implications for ASEAN energy policies. The ASEAN region faces a challenge in investing in renewable energy due to the excessive dependence on fossil fuels. Therefore, an in-depth evaluation of the main factor behind ASEAN's environmental concerns, which promotes the adoption of renewable energy, can greatly influence policy decisions, particularly in attaining net zero emissions. Policymakers can utilise this comprehensive analysis to establish informed objectives for policies related to renewable energy and develop strategic plans, i.e. reforming fuel subsidies. The goal is to encourage the development of environmentally friendly and sustainable energy plans for the future in the ASEAN region., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

97. Climate adaptation through crop migration requires a nexus perspective for environmental sustainability in the North China Plain.

Author

Gu W, Ma G, Wang R, Scherer L, He P, Xia L, Zhu Y, Bi J, and Liu B

Subjects

China, Global Warming, Conservation of Natural Resources methods, Agriculture methods, Crops, Agricultural growth & development, Zea mays, Climate Change, Triticum

Abstract

Crop migration can moderate the impacts of global warming on crop production, but its feedback on the climate and environment remains unknown. Here we develop an integrated framework to capture the climate impacts and the feedback of adaptation behaviours with the land-water-energy-carbon nexus perspective and identify opportunities to achieve the synergies between climate adaptation and environmental sustainability. We apply the framework to assess wheat and maize migration in the North China Plain and show that adaptation through wheat migration could increase crop production by ~18.5% in the 2050s, but at the cost of disproportional increment in land use (~19.2%), water use (~20.2%), energy use (~19.5%) and carbon emissions (~19.9%). Irrigation and fertilization management are critical mitigation opportunities in the framework, through which wheat migration can be optimized to reduce the climatic and environmental impacts and avoid potential carbon leakage. Our work highlights the sustainable climate adaptation to mitigate negative environmental externalities., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

98. Assessment of biometeorological conditions in Eastern Mediterranean City Adana, Turkey from past to the future.

Author

Çağlak S, Toy S, Bahadır M, and Matzarakis A

Subjects

Turkey, Humans, Models, Theoretical, Cities, Climate Change

Abstract

Human bioclimatic comfort (HBC) is an important subject of climatology in the field of physical geography. Human bioclimatic comfort (HBC) is the feeling of satisfied and comfortable within the ambient atmospheric thermal environment. Earth climate system has been exposed to changes from the beginning, but since 19 th century human - induced factors have contributed to these changes. HBC is the combined effect of atmospheric conditions and affected by all the changes in them. Turkey is among the countries in Mediterranean region, expected to develop higher vulnerabilities to the (bio) climate hazards. Therefore, a Mediterranean city in the south of the country, Adana, was chosen as the study area. HBC assessment was made for the past (1961 - 1990), present (1991 - 2022), near (2030 - 2060) and distant future (2070 - 2100) using hourly - data from the official meteorology station between 1961 and 2022, daily data of the climate model scenarios (Representative Concentration Pathway - RCP4.5 and RCP8.5) and Physiological Equivalent Temperature (PET) index, the Rayman model and Geographic Information Systems in the spatial distribution of HBC conditions. The analysis showed that the prevalence of "cold" and "cool" stresses has decreased while that of "hot" and "very hot" stresses has increased from the past to the present in Adana. It is predicted that present conditions will continue in the near and distant future, all comfort ranges will increase to the following warm range and the ideal period for HBC conditions will be the winter season. In order to reduce the adverse HBC conditions in cities due to climate change by creating climate resilient, sustainable and healthy cities, urban design and planning principles should be followed from a geographical point of view., (© 2024. The Author(s) under exclusive licence to International Society of Biometeorology.)

Published

2024

99. Seeing is more than believing: Personal experience increases climate action.

Author

Wei X, Yu F, and Peng K

Subjects

Humans, Female, Male, Adult, China, Young Adult, Hot Temperature, Awareness, Motivation, Climate Change

Abstract

Although global warming is a serious problem that influences numerous people worldwide, individuals are still reluctant to change their behaviours. The present research investigates how local hot temperatures affect climate action in non-Western groups. In Study 1, an analysis of temperature and information acquisition by Shanghai residents in 122 days found that heat increased attention and awareness of climate change. In Study 2 and Study 3, participants who were primed with heat-related perceptions were more likely to take climate action in private and public spheres. In Study 4, we further identified that people who experienced hot temperature events increased their beliefs and efficacy about climate change, which in turn motivated them to take more climate action. Importantly, the mediating effects were significant both in the manipulation of heat and real-world settings. Consistent with our theoretical perspective, seeing is more than believing because personal experience increases climate action by fostering climate change beliefs and efficacy., (© 2024 The British Psychological Society.)

Published

2024

100. Methane emissions and carbon storage from household paper disposal in Brazil during 1901-2016.

Author

SANQUETTA, Carlos Roberto, DALLA CORTE, Ana Paula, Inoue SANQUETTA, Mateus Niroh, Benedet MAAS, Greyce Charllyne, and TOMÉ, Margarida

Subjects

METHANE, CARBON sequestration in forests, WASTE management, WASTE paper, SOLID waste, LANDFILLS, WASTE treatment

Abstract

Copyright of Desenvolvimento e Meio Ambiente is the property of Universidade Federal do Parana and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022